账号:
密码:
CTIMES / 社群討論 / 新聞報導論壇
讨论新闻主题﹕光纤网络将大开渗透率 新旧建筑通吃
资策会与电电公会结合电信业者,于今日(7/8)针对建构全光纤建筑举办商机媒合活动。现场同时展示位于新庄的全光化宽带示范点,资策会表示,光纤可以串连有线电视、网络电话、监控系统等家庭影音,政府带头示范,未来无论是新成屋或旧建筑,光纤网络的渗透率都将大开...

Only Chen
(不在在线)
nbsp;
来自: 台北县
文章: 1024

发 表 于: 2010.07.09 12:04:26 PM
文章主题: 光纖網路將大開滲透率 新舊建築通吃
【台灣光纖普及率 要超越韓日---轉述 udn 】 資策會FIND資料顯示,截至2009年上半年,台灣光纖家戶普及率達19%,名列全球第四,僅落後南韓、日本與香港。官員認為,台灣土地小、人口密集,光纖普及率應可超前南韓與日本。
检视会员个人资料个人资料 回复文章 回顶端

Tommy Chung
(不在在线)
nbsp;
来自: 美加
文章: 1102

发 表 于: 2010.07.28 11:19:16 AM
文章主题: Re: 光纖網路將大開滲透率 新舊建築通吃

Intel's Optical Breakthrough Downloads an HD Film in a Second, Literally

Intel's Optical Breakthrough Downloads an HD Film in a Second, LiterallyTransfer a song to your phone. Seems pretty fast, right? Now imagine transferring the entire printed catalog of the Library of Congress in a minute and a half. Intel says they've got the technology to make it happen (eventually).

Intel detailed their breakthrough to the press at an event today, marking the milestone of impressive 50 gigabits per second transfer speeds using an underlying technology that could go much, much further. We've covered the promise of fiber optic speeds before, but nothing like this. Intel CTO Justin Rattner explained just what "silicon photonics" even means, why the world needs it, and what it promises in the near future.

Silicon photonics is, simply, the combination of optical technology with traditional silicon chip manufacturing techniques—the same processes used to make all of our CPUs and GPUs. By employing existing methods, turning data into light and back again will be affordable.

The fundamental process is that of transferring data by converting electrons—which are what make the device you're reading this on right now work—into photons. Intel's photonic technology uses a dazzling bit of engineering—and I do mean dazzling, as we're on the scale of your fingernail—to encode data into laser streams. These streams converge into one, and travel along a fiberoptic strand to their destination, where they are decoded from light back into electrons.

Intel's Optical Breakthrough Downloads an HD Film in a Second, Literally

Why would we need anything as complicated and sophisticated as this? The fact of the matter is that we're nearing the limit of what we can do with electrons—and there's no arguing with physics. Once we get in the realm of 10 gigabit transfer speeds, we've pushed copper wiring about as far as it will go without degrading the signal beyond usefulness. And with the mind boggling volume of data swirling around—HD movies, lossless audio, high resolution photos—what might sound excessive today will be essential sooner than we think.

Intel's fiber connection, on the other hand, can take us farther and faster. Immensely so. At the speed Intel has announced today, you could download an HD film from iTunes or 100 hours of music in less than a second. And if they reach their theoretical potential of 1 terabit per second, you could slurp down three seasons of an HD show or backup your entire harddrive in the same amount of time.

Intel's Optical Breakthrough Downloads an HD Film in a Second, Literally

Rattner said Intel hopes to have silicon photonics "widely deployed" by mid-decade, though holding one's breath in cases like this is usually a bad idea. We asked Intel, after hearing them tout the advantages silicon photonics offers for consumer devices, whether we could expect to see this technology replacing USB within this timeframe, prompting them to stress that the significance of the breakthrough is in its potential, not its concrete applications—commercial adoption will hinge on the market and manufacturing factors. Still, they have proven the technology works, and works well. For now, I can safely say that they have preemptively ruined USB 3.0 for me. [Intel Silicon Photonics Research]

检视会员个人资料个人资料 回复文章 回顶端

Tommy Chung
(不在在线)
nbsp;
来自: 美加
文章: 1102

发 表 于: 2010.07.30 12:25:46 PM
文章主题: Re: 光纖網路將大開滲透率 新舊建築通吃

英特爾:矽光連結技術,可將資料傳送至更遠的距離,且速度較現在的銅線更快。

將是雲端運算的利器

 

检视会员个人资料个人资料 回复文章 回顶端

Only Chen
(不在在线)
nbsp;
来自: 台北县
文章: 1024

发 表 于: 2010.09.15 11:22:41 AM
文章主题: Re: 光纖網路將大開滲透率 新舊建築通吃

感測系統新發明 「光纖」 品質佳

 

〔記者洪定宏/高雄報導〕傳統電訊感測系統監控橋梁及邊坡異狀時,很容易受到電磁波干擾而故障或誤判,為改善此一缺點,國立高雄大學電機工程學系教授施明昌與土木與環境工程學系主任俞肇球運用光纖傳導特性,開發出光纖感測系統,不但精準迅速,成本更只要國外類似產品的一半。

 

施明昌和俞肇球用新一代光纖「光閘(Grating)」技術,原理類似光線照進百葉窗所產生的光影明暗變化,當明暗間隔出現不正常的變化,意即監控點將發生危險,可發出通報及早應變。

 

施明昌表示,傳統感測器多採電子式感應,以銅質電纜線佈線,容易受電磁波干擾出現誤判狀況,或因埋設位置潮濕短路故障。

 

此外,接收設備的操作介面未中文化、不夠人性化,以及程式封閉無法再擴充也常令人詬病,若送到國外維修,往返至少耗時兩星期。

 

施明昌強調,光纖相對比銅線便宜,且不像銅線會因鏽蝕造成短路,不受電磁波干擾品質相對穩定。

 

目前實驗室測試可佈線達10公里、30幾個點,技術開發由施明昌主導,信號判讀由俞肇球負責,接收器及感測器均可自主開發,不僅技術不再受制於國外廠商,還能針對不同需求客製化。

(Yahoo!)

检视会员个人资料个人资料 回复文章 回顶端

Tommy Chung
(不在在线)
nbsp;
来自: 美加
文章: 1102

发 表 于: 2010.09.20 12:09:01 PM
文章主题: Re: 光纖網路將大開滲透率 新舊建築通吃

速度有望達 100Gbps:英特爾在以色列國防軍繼續展示光峰光纖接口

來自:驅動之家

    以色列國防軍 2010上,英特爾繼續展示著自己極為看重的光峰光纖接口技術,並擺放了兩套演示平台。

光峰技術是在整整一年前的以色列國防軍 2009上首次宣布的,由蘋果提出創意,英特爾具體開發,目前傳輸速度高達 10Gbps的,未來更可提升至100Gbps,而且單條線纜同時支持多種不同協議,並支持菊花鏈,延遲也很低。在英特爾的規劃中,光峰值將在未來一併取代USB接口,HDMI接口,DisplayPort的等各種傳輸接口,事實上這也是英特爾遲遲不肯原生支持的USB 3.0的重要原因之一。

這次的第一套展示系統重點是一台仁寶代工製造的筆記本,與一台的Avid高清的I / O轉接盒相連,另外還有一個配備輕山頂接口的西部數據外置硬盤,一個 HDMI接口適配器,同工傳輸 1080p的全高清視頻,走遍的戴爾顯示器還在播放另一端未經壓縮的視頻。

英特爾解釋說,光峰可以讓 Avid公司轉接盒將不同協議的控制轉交給仁寶筆記本軟件,充足的帶寬則可以輕鬆傳輸未壓縮的超高碼率高清視頻,無損音頻。

        
光峰,HDMI接口轉接盒再次登場,不過看起來比以前小多了,現在基本和一張信用卡差不多,而且也沒有外置輔助供電。

(WeiPhone)

检视会员个人资料个人资料 回复文章 回顶端

Tommy Chung
(不在在线)
nbsp;
来自: 美加
文章: 1102

发 表 于: 2010.11.17 11:26:31 AM
文章主题: Re: 光纖網路將大開滲透率 新舊建築通吃

光纖上網成主流 用戶數超越ADSL

http://tw.news.yahoo.com/article/url/d/a/101117/52/2h8um.html

 

检视会员个人资料个人资料 回复文章 回顶端
  相关讨论
MHL聯盟:用最簡單的方式 解決最複雜的問題
銀色台灣的危機與轉機
IPv4位址將耗盡 台灣應加速IPv6過渡步伐
民國100年 中小企業現「蟲蟲危機」
十巨頭打造真實雲端體驗 醫療雲打頭陣
  相关新闻
企业永续资讯揭露为接轨国际市场的准则
资策会四项创新技术勇夺ASOCIO DX AWARD奖项
资策会2024 STI TECH DAY 协助企业导入生成式AI应用
以运动数据折减保费!资策会携手产业首创健康运动型外溢保单概念
生成式AI发展前瞻 资策会携手专家解密趋势
  相关文章
一次到位的照顾科技整合平台
多项认验证服务建置 协助台产业建立数位创新生态
生成式AI刺激应用创新 带动软硬体新商机
人工智慧产业化 AI PC与AI手机将成市场新宠
5G无线电网路:未来工厂的核心
刊登廣告 新聞信箱 读者信箱 著作權聲明 隱私權聲明 本站介紹

Copyright ©1999-2024 远播信息股份有限公司版权所有 Powered by O3
地址:台北市中山北路三段29号11楼 / 电话 (02)2585-5526 / E-Mail: [email protected]